Production of low carbon cement containing sewage sludge ash as mineral admixture

IF 1.8 4区材料科学 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Green Materials Pub Date : 2023-02-10 DOI:10.1680/jgrma.21.00004

Shubham Goswami, D. Shukla, P. Singh

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Abstract

Cement is an essential construction ingredient and its demand has increased multifold during the last couple of years due to various construction activities. For the manufacture of cement, limestone is the key component that is the major source of carbon dioxide (CO2) emission. Moreover, local municipalities all over the world have long been concerned about the disposal of sewage sludge. Larger quantity of sewage sludge generation is becoming an urgent alternative solution for sludge disposal and waste recycling in construction materials. In accordance with the concept of sustainability, low carbon cement is produced in the current study by blending sewage sludge ash (SSA) and carbide lime sludge (CLS) (industrial waste) with Ordinary Portland Cement (OPC). In terms of physical properties, the influence of low carbon cement containing different percentages of SSA with 10% CLS is compared with composite cement containing fly ash (FA) in different percentages addition with 10% CLS. The outcome from the study shows that the utilization of SSA with CLS up to 45% would be possible with OPC as it indicates an acceptable level of compressive strength, conservation of depleting limestone reserves, saving in thermal and electrical energy besides emissions reduction of CO2.

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以污水污泥灰为矿物掺合料的低碳水泥的生产

水泥是一种重要的建筑材料，由于各种建筑活动，其需求在过去几年中增长了数倍。在水泥生产中，石灰石是二氧化碳（CO2）排放的主要来源。此外，世界各地的地方市政当局长期以来一直关注污水污泥的处理。大量产生的污水污泥正成为建筑材料中污泥处理和废物回收的迫切替代方案。根据可持续性的概念，本研究通过将污水污泥灰（SSA）和碳化石灰污泥（CLS）（工业废物）与普通硅酸盐水泥（OPC）混合来生产低碳水泥。在物理性能方面，比较了不同掺量SSA和10%CLS的低碳水泥与不同掺量粉煤灰复合水泥的影响。研究结果表明，在OPC的情况下，CLS高达45%的SSA的利用率是可能的，因为它表明了可接受的抗压强度水平，节省了消耗的石灰石储量，除了减少二氧化碳排放外，还节省了热能和电能。

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来源期刊

Green Materials Environmental Science-Pollution

CiteScore

3.50

自引率

15.80%

发文量

期刊介绍： The focus of Green Materials relates to polymers and materials, with an emphasis on reducing the use of hazardous substances in the design, manufacture and application of products.